CN115086939B - Receiver and processing method thereof - Google Patents

Receiver and processing method thereof Download PDF

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Publication number
CN115086939B
CN115086939B CN202210731232.9A CN202210731232A CN115086939B CN 115086939 B CN115086939 B CN 115086939B CN 202210731232 A CN202210731232 A CN 202210731232A CN 115086939 B CN115086939 B CN 115086939B
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doorbell
receiver
control
communication
logic level
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CN115086939A (en
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叶智慧
程小科
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Wuhan Linptech Co Ltd
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Wuhan Linptech Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W8/00Network data management
    • H04W8/005Discovery of network devices, e.g. terminals
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B3/00Audible signalling systems; Audible personal calling systems
    • G08B3/10Audible signalling systems; Audible personal calling systems using electric transmission; using electromagnetic transmission
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/16Discovering, processing access restriction or access information
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • Databases & Information Systems (AREA)
  • Computer Security & Cryptography (AREA)
  • Electromagnetism (AREA)
  • General Physics & Mathematics (AREA)
  • Selective Calling Equipment (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The invention provides a receiver based on wireless communication and a processing method thereof, wherein the receiver comprises: a housing and a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and establishes a communication relationship with the first communication component in a self-defined data communication mode; the first communication component is used for receiving a first control instruction sent by the appointed transmitter and sending a custom data signal to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to a first control instruction; the second communication component is used for receiving the custom data signal, analyzing the custom data signal based on the first logic level sequence signal in the custom data signal to obtain the data signal, and determining the control task according to the data signal.

Description

Receiver and processing method thereof
Technical Field
The invention relates to the field of doorbell, in particular to a receiver and a processing method thereof.
Background
The receiver (including but not limited to a doorbell receiver) needs to communicate with a device having a different communication means, such as a doorbell emitter, etc., and thus a corresponding communication module is correspondingly arranged in the receiver. When a plurality of communication components in the communication module perform data interaction, various functions are realized by utilizing different data transmission ports, so that port resources of the communication components are tense.
Disclosure of Invention
The invention provides a receiver based on wireless communication and a processing method thereof, which are used for solving the problem of shortage of port resources of a communication component in the receiver.
According to a first aspect of an embodiment of the present invention, there is provided a receiver comprising: a housing and a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and establishes a communication relationship with the first communication component in a self-defined data communication mode;
the first communication component is used for receiving a first control instruction sent by a designated transmitter and sending a custom data signal to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction;
The second communication component is used for receiving the custom data signal, analyzing the data signal based on a first logic level sequence signal in the custom data signal, and determining a control task according to the data signal.
According to a second aspect of the embodiments of the present invention, there is provided a receiver processing method based on wireless communication, applied to a receiver, the receiver including: a housing, a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and a communication relationship is established with the first communication component in a custom data communication mode;
the receiver processing method comprises the following steps:
the first communication component receives a first control instruction sent by a specified doorbell emitter and sends a custom data signal to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction;
The second communication component receives the custom data signal, analyzes the custom data signal based on a first logic level sequence signal in the custom data signal to obtain the data signal, and controls the corresponding control task to be executed according to the analyzed data signal.
The beneficial effects of the invention are as follows:
The invention provides a receiver based on wireless communication and a processing method thereof.A second communication component in the receiver is connected with a first communication component through a data transmission port, and after the first communication component receives a first control instruction sent by a specified doorbell emitter, a self-defined data signal is sent to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction; the second communication component receives the custom data signal, analyzes the custom data signal based on a first logic level sequence signal in the custom data signal to obtain the data signal, and controls the corresponding control task to be executed according to the analyzed data signal. The receiver can be suitable for more communication protocols due to the first communication component and the second communication component, the applicable scene of the receiver is enriched, communication can be realized according to a self-defined data communication mode only through one data transmission port between the first communication component and the second communication component, and port resources are saved.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.
Fig. 1 is a schematic diagram of a doorbell control system according to an embodiment of the present invention.
Fig. 2 is a schematic diagram of a second embodiment of a doorbell control system according to the present invention.
Fig. 3 is a schematic diagram of a doorbell control system according to an embodiment of the present invention.
Fig. 4 is a block diagram of a doorbell receiver in an embodiment of the present invention.
Fig. 5 is a flowchart of a doorbell control method based on wireless communication according to an embodiment of the present invention.
Fig. 6 is a second flowchart of a doorbell control method based on wireless communication according to an embodiment of the present invention.
Fig. 7 is a flowchart of a doorbell control method based on wireless communication according to an embodiment of the present invention.
Fig. 8a is a schematic diagram of a doorbell receiver distribution network on a terminal display interface according to an embodiment of the present invention.
Fig. 8b is a schematic diagram of displaying pairing result information on a terminal display interface according to an embodiment of the invention.
Fig. 8c is a schematic diagram of operating mode information of a doorbell receiver configured on a terminal display interface according to an embodiment of the present invention.
Fig. 8d is a schematic diagram of pairing a plurality of doorbell transmitters with a doorbell receiver on a terminal display interface according to an embodiment of the present invention.
Fig. 8e is a schematic diagram of setting message push and do not disturb periods on a terminal display interface according to an embodiment of the present invention.
Fig. 9a is a schematic diagram of a doorbell emitter according to an embodiment of the present invention.
Fig. 9b is a schematic diagram of a doorbell emitter according to an embodiment of the present invention.
Fig. 10 is a flowchart of a doorbell control method based on wireless communication according to an embodiment of the present invention.
Fig. 11 is a schematic diagram of the configuration of an electronic device in an embodiment of the invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.
Referring to fig. 1 to 3, the present disclosure provides a doorbell control system, which may include a doorbell emitter 1, a doorbell receiver 2, a terminal 3, a server 4, and a controlled device 5.
The doorbell emitter 1 may be a device capable of generating and sending commands and having a wireless transmission function. For example, it may refer to a device having radio transmission functions such as radio frequency radio transmission, infrared transmission, bluetooth transmission, wiFi transmission, and the like for generating and transmitting commands for control, management, and the like. The doorbell emitter 1 may comprise: self-generating switches, battery switches, sensors, etc.
The doorbell receiver 2 may be a device capable of receiving and executing commands and having a wireless transmission function, for example, a device having a wireless transmission function such as radio frequency wireless transmission, infrared transmission, bluetooth transmission, wiFi transmission, or the like for receiving and executing commands such as control and management. Illustratively, the doorbell receiver 2 may be any device capable of communicating with the server 4, the doorbell emitter 1, respectively, for example a device provided with a WiFi communication module (for communicating with the server 4) and a radio frequency communication module (for communicating with the doorbell emitter 1). The doorbell emitter 1 and the doorbell receiver 2 have a correspondence, for example: one doorbell emitter 1 may correspond to one doorbell receiver 2, one doorbell emitter 1 may also correspond to a plurality of doorbell receivers 2, a plurality of doorbell emitters 1 may also correspond to one doorbell receiver 2, etc.
The terminal 3 may be, for example, a mobile phone, a tablet computer, a car machine, an intelligent home appliance, etc. The terminal 3 may interact with the server 4, e.g. via a mobile network, a WiFi network, etc., as well as with the doorbell receiver 2 using bluetooth, etc. The terminal 3 may be connected to a target network and may communicate with the server 4 via the target network, for example.
The server 4 may be any device or combination of devices that has data storage capability and data processing capability and can interact with the doorbell receiver 2, and specifically may be, for example, a local or cloud server, where a required program may be deployed.
The controlled devices 5 may include any household, commercial, industrial use devices such as air conditioners, smart curtains, fans, refrigerators, lighting devices, wall switches, door bells, etc.; the system can also be terminal equipment such as mobile phones, tablet computers, car computers, intelligent household appliances and the like.
In an alternative embodiment, the doorbell control system may further comprise a control device 6, which control device 6 may interact with the terminal 3, the server 4 via a mobile network, a WiFi network, etc., and in turn send control instructions to other devices via the terminal 3, the server 4. The control device 6 may be connected to a target network and may communicate with the terminal 3, the server 4 via the target network, for example. The control device 6 may be a device capable of generating and transmitting commands and having a wireless transmission function. For example, it may refer to a device having radio transmission functions such as radio frequency radio transmission, infrared transmission, bluetooth transmission, wiFi transmission, and the like for generating and transmitting commands for control, management, and the like.
In an alternative embodiment, the doorbell control system may further include an intelligent controller 7, where the intelligent controller 7 may be any device or combination of devices capable of being controlled to implement on-off control, and is provided with a circuit with data processing capability, such as a processing module, and a circuit with wireless communication capability, such as a wireless communication module, where in one example, the intelligent controller may be a wall switch, and in other examples, the intelligent controller may be a fan, a lamp, a socket, a garbage disposal device, or a device connected to the intelligent controller, such as a single-path receiver, a multiple-path receiver, or the like. The external communication mode of the intelligent controller 7 may include at least one of the following: radio frequency, bluetooth, wiFi, mobile networks, etc.
In this embodiment, the doorbell control system may further include a speaker device, which may be understood as any device with sound playing capability, and may also have the capability of wired or wireless communication to the outside. The speaker device may be configured to perform external communication by joining a network of the gateway, or may be configured to perform external communication, such as with the server 4, by joining a network of the terminal 3 (e.g., a WiFi hotspot of the terminal or a target network to which the terminal is connected), so that the speaker device may receive a control instruction as the controlled device 5 to play a specific sound. In addition, in an alternative embodiment, the speaker device may also be an intelligent voice speaker, and further, may also have a voice recognition capability, a protocol conversion capability, and so on. The speaker device may also be used as the control device 6 to recognize an external voice signal, and generate a control command according to the recognized voice signal, and send the control command to the designated controlled device through the network, so as to control the controlled device. It can be seen that the sound box device in this embodiment can be used as a controlled device in the doorbell control system, or as a control device in the doorbell control system, which is not limited herein.
The number of doorbell emitter 1, doorbell receiver 2, terminal 3, server 4, controlled device 5, control device 6, and intelligent controller 7 is not limited to that shown in the figures, and may be any number.
Illustratively, the doorbell emitter 1, the doorbell receiver 2, and the intelligent controller 7 according to the present embodiment can interact with each other at 433M by using electric energy generated by the mechanical movement of the pressing force, and the doorbell emitter 1 emits a radio frequency signal to the outside. Interaction between doorbell receiver 2, terminal 3, server 4, and control device 6 may be achieved through a target network, e.g., doorbell receiver 2, terminal 3, control device 6 communicate with server 4 by connecting to a WiFi wireless network.
It can be seen that the receiver (including but not limited to a doorbell receiver) needs to communicate with devices having different communication means, and thus a corresponding communication module is correspondingly arranged in the receiver. The present embodiment proposes a receiver including: a housing and a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and establishes a communication relationship with the first communication component in a self-defined data communication mode.
The first communication component can be any one of radio frequency, bluetooth, wiFi and the like, and the second communication component can be any one of radio frequency, bluetooth, wiFi and the like. And the first communication component is different from the second communication component. The data transfer ports include, but are not limited to, IO ports and the like.
It should be noted that, the second communication component in this embodiment may be a communication component with an operating system, for example, the second communication component performs data interaction with the first communication component, and after the second communication component receives the data sent by the first communication component, the operating system in the second communication component performs corresponding operations of identifying, analyzing, processing, and the like on the received data. And because the second communication component needs to utilize different data transmission ports to realize various functions, the port resources of the second communication component are tense. In this embodiment, the first communication component and the second communication component are provided, so that the receiver can be suitable for more communication protocols, the applicable scene of the receiver is enriched, and communication between the first communication component and the second communication component can be realized only through one data transmission port, thereby saving port resources.
Further, in the communication process of the first communication component and the second communication component, the first communication component receives a first control instruction sent by a designated transmitter and sends a custom data signal to the second communication component through a data transmission port according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction; the second communication component is used for receiving the custom data signal, analyzing the data signal based on a first logic level sequence signal in the custom data signal, and determining a control task according to the data signal. The second communication component can decode data of the IO port to obtain a data signal when detecting at least part of the first logic level sequence signal through the IO port. Wherein the detected at least part of the first logic level sequence signal is a second logic level sequence signal, i.e. the second logic level sequence signal is identical to at least part of the first logic level sequence signal. Therefore, when the second communication component detects the second logic level sequence signal, the second communication component can be regarded as detecting the first logic level sequence signal so as to start the data signal decoding operation, and decoding is started without detecting all the first logic level sequence signals, so that the working efficiency of the operating system is improved. Each logic level in the first sequence of logic level signals averages to the same logic level; each logic level in the second logic level sequence signal averages the same logic level, e.g., is the same high level or low level. The first logic level sequence signal and the second logic level sequence signal are both high level or low level, so that the second communication assembly can identify the first logic level sequence signal and the second logic level sequence signal more easily, and the burden of an operating system in the second communication assembly is reduced.
Specifically, the process of the second communication component receiving the custom data signal and analyzing the custom data signal based on the first logic level sequence signal in the custom data signal may include the following modes:
For example, the second logic level sequence signal in the custom data signal may be detected by a loop program for reading the IO port, and after the loop program reads the second logic level sequence signal of the IO port, the data of the IO port may be decoded to obtain the data signal. I.e. the time to detect the second logic level sequence signal is the time to execute the loop program in the system to read the IO port, this is possible in a program-simple controller because the controller program is simple, the time to execute the loop program each time to read the IO port is controllable and fast. However, in this embodiment, since the controller in the second communication component runs an operating system, it is relatively complex, and various programs are running in the operating system, so that the time for executing the loop program to read the IO port in the system is not controllable, and sometimes the time for executing the loop program to read the IO port in the system may be longer due to scheduling of other tasks of the operating system, so that decoding accuracy may be affected.
And the IO port edge of the controller can be used for interrupting and decoding, namely the controller in the second communication component enters the IO port interruption according to the change of the level of the IO port, and the level of the IO port can be judged every time the IO port interruption, so that a second logic level sequence signal in the custom data signal is detected, and further decoding is carried out. However, when the IO port does not transmit the custom data signal, many disordered invalid signals may be generated, and the high-low level of the invalid signals are disordered, so that the IO port is interrupted very frequently by the decoding method, which results in serious packet loss during decoding.
In order to solve the problems of serious packet loss and inaccurate decoding in the foregoing manner, this embodiment further provides a preferred embodiment, including: periodically triggering the second communication component to execute the level signal detection task of the data transmission port through a set timer; the data signal of the data transmission port is read upon detection of a second logic level sequence signal consisting of a plurality of successive level signals. For example, an interrupt timer with a timing time of T1 is set, the interrupt is entered once every T1, whether there is a second logic level sequence signal in the custom data signal is detected, and if the second logic level sequence signal is detected, the data of the IO port is decoded to obtain the data signal. The second logic level sequence signal in the custom data signal can be accurately detected by detecting in a timing interruption mode, so that packet loss can not occur, and the decoding accuracy is improved.
In addition, after the second logic level sequence signal is detected, the timer interrupt is closed, and the task priority corresponding to the data signal of the data transmission port is set to be the highest priority, so that the smooth execution of decoding is ensured, the recognition accuracy of decoding is improved, and the normal operation of other tasks in the operating system is not influenced.
The first communication component is a radio frequency component (e.g. 433M radio frequency) and the second communication component is a WiFi component, which is not limited to the first communication component and the second communication component. In this embodiment, the data rate of the radio frequency component is set to 30ksps, the custom data signal sent by the radio frequency component to the WiFi component is 3168us, the custom data signal includes a 1056us sync code, which is a first logic level sequence signal, and the sync code is a 1056us low level sequence signal, for example. The self-defined data signal is characterized in that when no signal exists, the output waveform is disordered, when a signal exists, the sync code is output first, and then the data code, namely the data signal, is output. In the process of decoding the custom data signal by the second communication component, an interrupt timer with the T 1 of 66us is set, the interrupt is carried out every 66us, whether the interrupt is low level or not is detected, if a plurality of low level signals are continuously detected, the sync code is considered to be detected, at the moment, the timer is closed, and the data of the IO port are decoded to obtain the data signal. After the decoding signal is read, starting the timer again, and entering the next identification task of the sync code. In this embodiment, the duration of the sync code, i.e. the first logic level sequence signal, is T 2, and the timing period T 1 of the timer is less than T 2, so as to satisfy the detection of the sync code in each custom data signal. Further, T 1 may be set to be less than or equal to T 2/5, that is, only a portion of the first logic level sequence signal needs to be detected to be regarded as the sync code detected, which can not only meet the decoding requirement but also reduce the system load. The present embodiment also proposes a preferred embodiment where T 1 is less than or equal to T 2/14, i.e. a timer interrupt is entered every 66us and is detected as low, and if 14 low signals are detected consecutively, the sync code is considered detected and decoding is started. The actual measurement adopts the decoding mode, single packet data is sent out once per second, the test is carried out for 20 times, and no packet loss phenomenon exists.
The embodiment can realize direct communication between the WiFi component and the radio frequency component, for example, a self-defined data bidirectional communication channel is established between the radio frequency component and the WiFi component, unidirectional wireless communication is established between the radio frequency component and the source transmitter, and bidirectional wireless communication is established between the WiFi component and the source device. The communication between the WiFi component and the radio frequency component does not need other controllers (such as a singlechip) to perform protocol conversion, a custom data communication mode is adopted between the WiFi component and the radio frequency component, and the communication between the WiFi component and the radio frequency component can be directly performed by only distributing one IO port of the WiFi component, so that IO port resources of the WiFi component with an operating system are saved. In addition, decoding is performed in a timer interrupt mode, accuracy of data identification is guaranteed, packet loss is avoided, and normal operation of other tasks in an operating system is not affected.
Further, the receiver further includes an execution module, where the execution module is disposed inside the housing, and the execution module is electrically connected to the first communication module, and is configured to execute a corresponding control action according to a control task, where the control task is determined by the first communication module according to the decoded data signal. The execution module may perform different control actions in different scenarios where the receiver is applied. For example, the receiver of the present embodiment may be applied in a doorbell control system, and the execution module may output a specified light signal or a specified audio signal externally according to the control task. The receiver of the embodiment can also be applied to a service call system of a business place, a call system of a patient in a hospital or an aged care call system, and the execution module can perform voice prompt, display prompt or vibration prompt lamp prompt operation outwards according to the control task.
In this embodiment, when the receiver is applied to the doorbell control system, the first communication module is configured to receive and parse a first instruction; if the first instruction is a distribution network instruction; joining a target network according to the first instruction; if the first instruction is a first control instruction; analyzing the first control instruction, and controlling the corresponding control task to be executed according to the analysis result; the control tasks include executable functions of the doorbell receiver and/or a controlled device connected to the target network. For example, the execution module is used for executing corresponding control actions according to the control tasks; and/or the first communication module is further used for sending a second control instruction to a server connected to the target network, so that the server controls the control task to be executed.
In this embodiment, the receiver may join in the target network according to the network allocation instruction, and when the doorbell receiver receives the first control instruction, the receiver may control the corresponding control task to be executed according to the analysis result, where the control task includes an executable function of the controlled device connected to the target network, and it can be seen that the controlled object in this embodiment includes any controlled device connected to the target network, which is not limited to the receiver, and can meet more diverse and flexibly-changed control requirements.
For example, when the receiver in the present embodiment is applied as a doorbell receiver in a doorbell control system, reference may be made to fig. 4, and fig. 4 is a block diagram of the doorbell receiver in an embodiment of the present invention. The doorbell receiver in this embodiment includes a power supply module 41, a radio frequency module 42, a WiFi module 43, an audio module 44, and may further include keys, indicator lights (not shown in the figure), and the like. The power supply module 41 is electrically connected with the radio frequency component 42, the WiFi component 43, the audio module 44 and the keys respectively to supply power to the radio frequency component, the WiFi component, the audio module and the keys; the power supply module 41 may supply power by means of self-power generation, a battery, solar energy, an input power source, and the like. For example, the power supply module may include an AC-DC power conversion unit for converting 220V AC power into 3.3V DC power to power the radio frequency component 42, the WiFi component 43, the audio module 44, the key, etc. The WiFi component 43 is connected to the radio frequency component 42 through an IO port, and a communication relationship is established between the WiFi component 43 and the radio frequency component 42 by adopting a custom data communication manner. The WiFi module 42 is connected with an audio module 44, keys and indicator lights, respectively. When the radio frequency component 42 in the doorbell receiver receives the control instruction sent by the doorbell emitter, the control instruction may be sent to the WiFi component 43, the WiFi component 43 parses the control instruction, and controls the corresponding control task to be executed according to the parsing result. For example, if the WiFi component 43 parses and determines that the control task is an executable function of the doorbell receiver, such as ringing, then a control instruction is sent to the audio module 44, and the audio module 44 is controlled to execute the ringing. The indicator light may also be controlled to flash in a designated manner. Illustratively, the audio module 44 may include a music chip, a speaker, etc. for playing specific audio in response to control instructions issued by the WiFi component 43. The WiFi component 43 may further send the control instruction or a control event corresponding to the control instruction to a server connected to the target network, where the server may determine a control task, such as an executable function of a controlled device connected to the target network, according to the control instruction or the control event corresponding to the control instruction, and the server sends a corresponding control instruction to a corresponding controlled device in the control task, where the controlled device may execute a corresponding function according to the control instruction, so as to control the control task to be executed.
Referring to fig. 5, fig. 5 is a flowchart illustrating a doorbell control method based on wireless communication according to an embodiment of the present invention. The embodiment discloses a doorbell control method based on wireless communication, is applied to doorbell receiver, doorbell receiver includes: the device comprises a shell, a first communication module and an execution module; the first communication module and the execution module are arranged in the shell, and the execution module is electrically connected with the first communication module; the doorbell control method comprises the following steps:
In step S501, the first communication module receives and parses a first instruction.
Step S502, if the first instruction is a network allocation instruction; joining a target network according to the first instruction; the target network may include a network of a gateway, a network to which a terminal is connected, a WiFi network, and the like.
Step S503, if the first instruction is a first control instruction, analyzing the first control instruction;
Step S504, corresponding control tasks are controlled to be executed according to the analysis result; the control tasks include executable functions of the doorbell receiver and/or a controlled device connected to the target network.
It should be noted that the executable functions in the control task include executable functions of the doorbell receiver, such as ringing, lighting an indicator light, etc., so that the doorbell receiver can act under direct control of the corresponding doorbell emitter. In addition, the executable functions in the control task can also comprise any controlled equipment which is connected to the target network except the doorbell receiver, and after the doorbell receiver receives the first control instruction, if the first control instruction represents the control instruction of the doorbell receiver, the execution module of the doorbell receiver executes corresponding control actions according to the control task; if the first control instruction characterizes a control instruction for other controlled devices, the first communication module of the doorbell receiver sends the first control instruction or a corresponding control event to a server connected to the target network, so that the server controls the control task to be executed, for example, the server determines the corresponding controlled device according to the first control instruction and sends a second control instruction to the corresponding controlled device, so that the corresponding controlled device executes a corresponding executable function according to the second control instruction. It can be seen that the doorbell emitter in this embodiment can achieve control over the doorbell receiver, and/or: control of other controlled devices may also be implemented.
According to the embodiment, the doorbell receiver can join in the target network according to the distribution network instruction, and when the doorbell receiver receives the first control instruction, the corresponding control task can be controlled to be executed according to the analysis result, wherein the control task comprises an executable function of the controlled device connected to the target network, and the controlled object in the embodiment comprises the controlled device which is randomly connected to the target network, so that the doorbell receiver is not limited to the doorbell receiver, and can meet more diverse and flexibly-changed control requirements.
Further, the first communication module in this embodiment includes a first communication component and a second communication component; the first communication component is used for establishing communication of a first channel; the second communication component is used for establishing communication of a second channel or a third channel; the first channel, the second channel and the third channel respectively adopt different communication protocols; the analysis result comprises a communication channel corresponding to the first control instruction. Wherein the different communication protocols include, but are not limited to, radio frequency, bluetooth, wiFi, mobile network, etc.
In an optional implementation manner, the first communication component is a radio frequency component, the second communication component is a WiFi component, and the doorbell receiver in this embodiment is a WiFi/BT dual-mode device, that is, the second communication component of the doorbell receiver, such as a WiFi component, integrates a WiFi/BT dual mode, and has the capability of WiFi communication and bluetooth communication. Namely, the control instruction sent by the radio frequency communication protocol is received by the first channel, the control instruction sent by the Bluetooth communication protocol is received by the second channel, and the control instruction sent by the WiFi communication protocol is received by the third channel. In this embodiment, after receiving the first control instruction, the first communication module analyzes the first control instruction. For example, the parsing may be performed based on the receiving channel of the first control instruction, so as to control the corresponding control task to be executed according to the parsing result.
Optionally, if the communication channel of the received first control instruction is the first channel; then a first control command sent by the doorbell emitter through a first channel, for example a radio frequency protocol, is received, said first control command characterizing a control action event of the doorbell emitter; the execution module executes an executable function corresponding to the doorbell receiver according to the first control instruction, and/or the first communication module sends the control action event to a server, so that the server determines a control task in a first control strategy according to the control action event and controls the control task to be executed; the first control strategy defines a mapping relation between an action event and a control task; the action event comprises a control action event for a doorbell emitter corresponding to the doorbell receiver, and the control task comprises an executable function connected to a controlled device in the target network. That is, in this embodiment, the doorbell receiver may receive a first control instruction sent by the doorbell emitter through radio frequency, where the first control instruction characterizes a control action event of the doorbell emitter, for example, a button of the doorbell emitter is pressed, etc., and the doorbell receiver may respond to the first control instruction to perform its own functions, for example, ring, lighting, etc., and may send the control action event of the doorbell emitter to the server, so that the server implements control over the controlled devices connected to the target network except for the doorbell receiver according to the control action event and the first control policy. In addition, after the doorbell receiver responds to the first control instruction to execute the function of the doorbell receiver, a control action event of the executed function of the doorbell receiver can also be sent to the server, so that the server can control other doorbell receivers or controlled devices connected to the target network according to the control action event of the executed function of the doorbell receiver and the first control strategy. Furthermore, in this embodiment, when the doorbell emitter controls the doorbell receiver through radio frequency, not only the executable function of the doorbell receiver itself but also the executable functions of other doorbell receivers or controlled devices connected to the target network can be controlled. When the doorbell receiver receives control of the doorbell emitter, the controlled object comprises any controlled device connected to the target network, and the controlled object is not limited to the doorbell receiver itself, so that more diverse and flexibly-changed control requirements can be met.
The doorbell emitter is an emitter which is matched with the doorbell receiver, and information such as type information, identification information and/or key values of the emitter which is matched with the doorbell receiver is stored in the doorbell receiver. After the doorbell receiver receives the first instruction, if the first instruction includes information of the emitter such as type information, identification information and/or key value, the information of the emitter in the first instruction is matched with the information of the emitter stored by the doorbell receiver, and if the matching is successful, the first instruction is determined to be a first control instruction aiming at the doorbell receiver.
In an alternative embodiment, the first control policy may be freely determined by the user at the terminal, which defines a mapping relationship between the at least one action event and the at least one control task. In this embodiment, each action event is a control action of a doorbell emitter, for example, a pressing action (which may be reset or not) of a doorbell emitter, or may be a pressing action (which may be reset or not) of a key of a doorbell emitter, and further, different action events refer to different control actions of the same doorbell emitter, or the same control action of different doorbell emitters, or different control actions of different doorbell emitters. The control tasks referred to above can be understood as: an executable function of a controlled device. The controlled device is connected to the target network. The functions related to the control task can comprise the on and off of the equipment and the on-off of a corresponding switch of the equipment, and can also comprise specific functions of the equipment, such as playing specific music and video by a controlled entertainment equipment, and can also be such as the adjustment of the working mode and the temperature of the air conditioning equipment.
The first control strategy referred to above may describe any information of the relationship between action events and control tasks, and the relationship between action events. For example, for a control task and a plurality of action events, the first control policy may be, for example, that any one of the plurality of action events is satisfied and the control task is executed, or may be, for example, that all of the plurality of action events are satisfied and the control task is executed. For the first control strategy, the user can define the control strategy by combining with or not on the terminal, so that more complex control effect is achieved. In addition, in the defined first control strategy, a delay time of control may also be defined.
Further, if the communication channel of the received first control instruction is analyzed to be a third channel; the method comprises the steps that a first control instruction sent by a server through a third channel such as a WiFi network is received, wherein the first control instruction is determined by the server according to a first control strategy, and the first control strategy defines a mapping relation between an action event and a control task; the action event comprises a doorbell emitter or a control action event of a control device connected to the target network; the control tasks comprise doorbell receivers and/or executable functions of controlled devices connected to the target network; and executing a corresponding control task according to the first control instruction.
In this embodiment, in the first control policy generated by the terminal, the action event further includes a control action event connected to a control device in the target network; the control task includes an executable function of the doorbell receiver. The doorbell receiver may interact with the server over the target network, e.g., a WiFi network, and receive a first control command sent by the server over a third channel, e.g., a WiFi network.
In this embodiment, the control device may interact with the terminal and the server via a mobile network, a WiFi network, or the like, and further send a control instruction to other devices including, but not limited to, a doorbell receiver through the terminal and the server. Illustratively, the control device includes a speaker arrangement, which may be a smart voice speaker, which in turn may also have voice recognition capabilities, protocol conversion capabilities, etc. The speaker arrangement is connectable to a target network and interacts with the server through the target network. The action events in the first control strategy may include control action events recognized by the speaker device through voice, and the control tasks include executable functions of the doorbell receiver. For example, the speaker device recognizes that the user utters a voice "activate doorbell receiver", and may send an action event to the server that activates the doorbell receiver. In an optional implementation manner, a first control policy is pre-stored in the server, where the first control policy may be an action event sent by the terminal, the doorbell receiver or other devices to the server, where the server receives an "start doorbell receiver" sent by the speaker device, determines, according to the action event, that a corresponding control task is an executable function of the doorbell receiver in the stored first control policy, and sends a corresponding first control instruction to the doorbell receiver. After receiving the first control instruction, the doorbell receiver can start and execute corresponding functions according to default working mode information such as default ringing music, volume size and working type. Therefore, in this embodiment, the control device may be used to control the doorbell receiver to perform a corresponding function, that is, the control object for the doorbell receiver includes any control device connected to the target network, such as a sound box, and the control device is not limited to the doorbell emitter, and can meet more diverse and flexibly-changed control requirements.
Further, in this embodiment, the doorbell control method further includes: responding to a pairing instruction to enter a pairing mode, and receiving a pairing message sent by an intelligent controller by the radio frequency component, wherein the pairing message sent by the intelligent controller records identification information and pairing control information of the intelligent controller; the WiFi component stores the identification information and the pairing control information of the intelligent controller to obtain learning result information, and sends the learning result information to the server to enable the server to: the server sends the learning result information to a terminal, and the terminal displays at least part of the learning result information. In this embodiment, the intelligent controller may be any device or combination of devices capable of being controlled to realize on-off control, and is provided with a circuit with data processing capability, such as a processing module, and a circuit with wireless communication capability, such as a wireless communication module, for example, the intelligent controller includes a single fire wall switch, a zero fire wall switch, a single channel receiver, a multiple channel receiver, and the like. The intelligent controller may have a radio frequency communication module, the doorbell receiver enters a pairing mode in response to a pairing instruction, for example, by means of entity control or remote control, and a radio frequency component of the doorbell receiver receives a pairing message sent by the intelligent controller, where identification information and pairing control information of the intelligent controller are recorded in the pairing message sent by the intelligent controller. The pairing control information may include control action type information, for example, a wall switch is taken as an example, and the control actions of the pairing control information may include turning over, turning on, turning off and no action of the wall switch, and the control action type information may represent different control actions of the intelligent controller. In addition, the intelligent controller may be a fan, a lamp, a socket, a garbage disposal device, or the like, or a device connected with the intelligent controller, such as a single-path receiver, a multi-path receiver, or the like, and the control action type information may also include turning on and off the device, turning on and off a certain function of the device, delaying to turn on and off a certain function of the device, adjusting a function parameter of the device, and the like.
The radio frequency component sends the identification information and the pairing control information of the intelligent controller to the WiFi component, the WiFi component stores the identification information and the pairing control information of the intelligent controller to obtain learning result information, the learning result information is sent to the terminal through the server, and the related information of the intelligent controller such as the name and the control information of the intelligent controller can be displayed in the terminal APP interface. The user can set a first control strategy between the intelligent controller and other devices in the target network on the terminal APP interface according to the displayed related information of the intelligent controller and own control requirements, so that the control between the intelligent controller and the other devices in the target network is realized. For example, the action events in the first control policy further include control action events of control devices in the target network; the control tasks also include executable functions of the intelligent controller. When a control action event aiming at the intelligent controller occurs, the control equipment in the target network sends the control action event to the server, and after the server receives the control action event, the control task corresponding to the control action event is determined to be an executable function of the intelligent controller according to the first control strategy, and then the first control instruction is sent to the doorbell receiver. And the doorbell receiver receives and analyzes the first control instruction sent by the server, and controls the corresponding control task to be executed according to the analysis result. For example, the doorbell receiver sends the first control instruction to the intelligent controller to cause: the intelligent controller executes corresponding executable functions of the intelligent controller such as turning over, opening, closing and the like according to the first control instruction.
Therefore, in this embodiment, in addition to executing the self function in response to the control instruction, the doorbell receiver may send the related information of the intelligent controller paired with the doorbell receiver to the terminal through the target network for display, so that the control device in the target network can control the intelligent controller. The doorbell receiver can also have a gateway function, and the intelligent controller can perform associated control with control equipment in the target network through the doorbell receiver, for example, remote control, voice control, configuration scene, namely a first control strategy and the like are realized. In this embodiment, the gateway function of the doorbell receiver is utilized, so that the control object includes any control device, such as a sound box, connected to the target network, and is not limited to the doorbell emitter, and the controlled object includes any controlled device and/or intelligent controller connected to the target network, and is not limited to the doorbell receiver. In addition, the doorbell emitter can also pair with intelligent control ware, for example, after triggering doorbell emitter, intelligent control ware entering study mode, doorbell emitter outwards sends pairing message through 433M radio frequency, including at least in the pairing message doorbell emitter's identification information like equipment ID number, intelligent control ware receipt pairing message can accomplish after with doorbell emitter's identification information stores and pairs. The doorbell emitter can control the matched intelligent controller, for example, the doorbell emitter can send control instructions to control the intelligent controller to turn over, turn on, turn off and the like. The doorbell emitter can trigger the opening of the lamp at the door or the receiver connected with the lamp at the same time when receiving the pressing to trigger the doorbell receiver to ring, so that the lamp at the door is lightened when the doorbell emitter is pressed by a user, and the doorbell emitter, the door receiver and the lamp are controlled in a linkage mode.
In summary, the control objects and the controlled objects in the embodiment are various, so that the control can be realized more variously and flexibly. Meanwhile, the first control strategy can be freely defined aiming at the doorbell emitter, the doorbell receiver, the control equipment, the controlled equipment, the intelligent controller and the like, any linkage control logic can be conveniently realized, and more diverse and flexible control requirements are met.
Further, if the communication channel of the received first control instruction is the second channel, the receiving terminal sends the first control instruction through the second channel, such as bluetooth, and the first control instruction is generated by the terminal in response to the operation of the doorbell receiver in the display interface; and the execution module executes the executable function corresponding to the doorbell receiver according to the first control instruction. Before receiving the first control instruction sent by the terminal through the second channel, the method further comprises: determining that the doorbell receiver is disconnected from the target network.
Because when implementing the diversity control related to the doorbell receiver based on the first control policy, it is required to maintain the target network connection between the doorbell receiver and the server, once a problem occurs in the target network, such as a network outage or a network situation is poor, the doorbell receiver or other devices in the target network cannot interact with the server, and thus cannot implement the diversity control related to the doorbell receiver. Based on this, in this embodiment, when the doorbell receiver is disconnected from the target network and multiple control cannot be achieved through the server, the first control instruction sent by the terminal through bluetooth may also be received, so as to achieve multiple control over the doorbell receiver.
For example, if the second communication component of the doorbell receiver is disconnected in a connection channel with the target network, or if multiple network allocation fails, it is determined that the doorbell receiver is disconnected from the target network. The second communication component can receive a first control instruction sent by the terminal through Bluetooth and execute an executable function corresponding to the doorbell receiver according to the first control instruction. For example, the first control instruction is generated by the terminal in response to a manipulation action of the doorbell receiver in the display interface, and the manipulation action can be a modification operation of the current working mode information of the doorbell receiver in the display interface, such as modification of ringing music, volume size, working type and the like. The execution module of the doorbell receiver can execute executable functions corresponding to the doorbell receiver, such as modification of ringing music, volume, work type and the like, according to the first control instruction, and can also ring, light and the like according to the first control instruction.
In addition, in an alternative embodiment, the terminal display interface may also display related information such as learning result information of the intelligent controller paired with the doorbell receiver. The first control instruction may also characterize control of the intelligent controller. After receiving a first control instruction sent by the terminal through Bluetooth, the doorbell receiver can also send the first control instruction to the intelligent controller, so that the intelligent controller executes corresponding executable functions of the intelligent controller according to the first control instruction.
In this embodiment, when a problem occurs in the network and the doorbell receiver cannot interact with the server, the doorbell receiver may receive the first control instruction sent by the terminal through bluetooth, and then execute a corresponding function. Therefore, when a network has a problem, the doorbell receiver can be controlled by the terminal to execute corresponding functions, namely, the control object for the doorbell receiver is not limited to the doorbell emitter, and more various and flexibly-changed control requirements can be met. Further, when a problem occurs in the network, the doorbell receiver can respond to the control of the terminal to execute the corresponding function of the doorbell receiver, and can respond to the control of the terminal to control the executable function of the intelligent controller, so that various controls when the network is in a problem are realized.
Further, in this embodiment, after receiving the first control instruction, the doorbell receiver determines whether the doorbell receiver enters a specified state according to a second control policy; the second control strategy defines a corresponding relation between a specified time period and the specified state; the doorbell receiver does not ring in the specified state. In this embodiment, in some application scenarios, such as rest period, a user needs to control a doorbell receiver corresponding to a doorbell emitter when pressed to avoid affecting user rest, and then the user may add a specified time period in the terminal APP interface, so that the doorbell receiver is in a do-not-disturb state in the specified time period.
Optionally, the user may set a first time period, i.e. a specified time period, for a specified doorbell emitter in the terminal APP interface, and the user may also set a second time period, i.e. a specified time period, for a doorbell receiver in the terminal APP interface. After the user configures the first time period and the second time period, the terminal sends the first time period and the second time period to the doorbell receiver through the server, the doorbell receiver can correspondingly store the first time period and the appointed doorbell emitter, and the second time period and all doorbell emitters paired with the doorbell receiver are correspondingly stored, so that a second control strategy is generated. In an alternative embodiment, when the doorbell receiver receives a first control command, the doorbell receiver analyzes that if the first control command is sent by a specified doorbell emitter, determines the receiving time of the first control command, and determines whether the receiving time is in a first time period; if the receiving time is in the first time period, entering a specified state; the first time period is generated by the terminal in response to a configuration operation of a specified doorbell emitter. In another alternative embodiment, the doorbell receiver determines the time of receipt of the first control command when the first control command is received; judging whether the receiving time is in a second time period or not; if the receiving time is in the second time period, entering a specified state; the second time period is generated by the terminal in response to a configuration operation of the doorbell receiver. And in the appointed state, the doorbell receiver does not respond to the first control instruction and/or the doorbell receiver executes corresponding control actions according to a preset working mode, wherein the preset working mode can comprise a light-on prompt but does not ring. In addition, the doorbell receiver periodically receives the time information synchronized by the server and/or the terminal according to a preset time, for example, the doorbell receiver may perform time synchronization with the server through a target network or perform time synchronization with the terminal through bluetooth when a network problem occurs, so as to determine whether the receiving time of the first control instruction is in the first time period or the second time period by using the synchronized time information. In this embodiment, the doorbell receiver may enter a specified state according to the receiving time of the first control instruction, where the doorbell receiver does not ring in the specified state, thereby implementing a do-not-disturb function of the doorbell receiver and improving user experience.
In addition, since one doorbell receiver may correspond to multiple doorbell transmitters, there may be different do-not-disturb settings for different doorbell transmitters, e.g., one doorbell receiver corresponds to multiple doorbell transmitters outdoors and doorbell transmitters indoors, in certain application scenarios, a user may need the doorbell transmitters outdoors to press while the doorbell receiver does not ring but the doorbell transmitters indoors to press. In this embodiment, a specified time period for entering a do-not-disturb may be set for a specified doorbell emitter, and the doorbell receiver enters a do-not-disturb state only at a specified time period when the specified doorbell emitter is pressed, so as to satisfy the personalized requirements of a user. In this embodiment, a specified time period for entering a do-not-disturb can be set for the doorbell receiver, and the do-not-disturb setting for all doorbell transmitters paired with the doorbell receiver can be realized only by setting for the doorbell receiver, so that the efficiency of setting the do-not-disturb for the user is improved.
Further, in this embodiment, the second communication component is connected to the first communication component through a data transmission port, and establishes a communication relationship with the first communication component by adopting a custom data communication manner. It should be noted that technical terms, technical features, optional implementations and technical effects related to the custom data communication process between the first communication component and the second communication component in the doorbell receiver of the present embodiment may be understood with reference to the related description of the embodiments of the receiver, and will not be further described herein for repeated matters.
In this embodiment, in step S502, joining the target network according to the first instruction includes: responding to the first instruction to enter a distribution network mode; receiving distribution network information in a distribution network mode; the distribution network information comprises a distribution network secret key; and adding the target network according to the distribution network secret key. Illustratively, adding the doorbell receiver in the terminal APP may be, for example: if the doorbell receiver is a WiFi single-mode device, a terminal connected with the same local area network can transmit the ssid and the psk of the target AP to the doorbell receiver in the form of smartconfig or an AP hot spot, and the doorbell receiver can be connected to the AP according to the ssid and the psk so as to join the target network. If the doorbell receiver is a WiFi/BT dual-mode device, the ssid and the psk of the target AP can be transmitted through Bluetooth, so that the doorbell receiver can join the target network. After the doorbell receiver joins the target network, the doorbell receiver can interact with the terminal and the server through the target network.
In this embodiment, when the doorbell receiver is paired with the doorbell emitter, the doorbell receiver enters a pairing mode (also understood as a learning mode) in response to a pairing instruction; in the pairing mode, the first communication component such as the radio frequency component receives a pairing message sent by the doorbell emitter; the pairing message can comprise type information, identification information, key value and the like of the doorbell emitter; the radio frequency component sends the type information, the identification information and/or the key value and the like of the doorbell emitter to a second communication component such as a WiFi component through custom data communication, and the WiFi component stores and associates the identification information of the doorbell emitter and the corresponding current working mode information of the doorbell receiver to obtain corresponding pairing result information. Wherein the current working mode information at least comprises one of the following: bell sound information, volume information, work type information of the doorbell receiver. The work type information characterizes the work type of the doorbell receiver when the doorbell receiver subsequently receives control of the paired doorbell emitter, such as only ringing prompt, only light prompt, or simultaneously starting ringing prompt and light prompt, and the like.
Wherein the responding to the pairing instruction to enter a pairing mode comprises the following steps: responding to a first control operation of a first operation piece of the doorbell receiver to enter a pairing mode, or receiving a pairing instruction sent by the server to enter the pairing mode; the responding to the distribution network instruction to enter a distribution network mode comprises the following steps: and responding to a second control operation of a second operation piece of the doorbell receiver to enter a distribution network mode, or receiving a distribution network instruction sent by the server to enter the distribution network mode. In this embodiment, the doorbell receiver may enter the pairing mode through physical manipulation or remote control, or may enter the distribution network mode through physical manipulation or remote control, which is not limited herein. The first operating piece and the second operating piece can be the same or different; the first control operation and the second control operation may be the same or different. The first operating member and the second operating member can be in the form of keys or touch. When the first operating member and the second operating member are identical, at least one of the following action parameters of the first control operation and the second control operation is different: pressing time; the number of presses; pressing the part. Illustratively, the first operating member may be a music key of the doorbell receiver, and the user may switch the ringing music of the doorbell receiver by pressing the music key; the first operating member may be a volume key of the doorbell receiver, and the user may adjust the ringing volume of the doorbell receiver by pressing the volume key. And after the transmitter is pressed, the pairing mode is completed according to the ringing music and the volume of the current doorbell receiver, and the pairing mode is exited. In the pairing mode, the pairing mode is exited by pressing a music key or a volume key for a short time, or the pairing mode is automatically exited after more than 30 seconds. In addition, if the transmitter is pressed in the pairing mode, the transmitter has been paired, the ring tone and volume size are updated, and the pairing mode is exited. And responding to long-time pressing operation of a volume key of the doorbell receiver, entering a distribution network mode to join in a target network in the distribution network mode. In addition, the doorbell receiver in the pairing mode and the distribution network mode can also characterize the entering pairing mode, the exiting pairing mode, the normal state mode, the entering distribution network mode, the exiting distribution network mode and the like of the doorbell receiver through different colors and different flashing times of the indicator lights.
In this embodiment, the WiFi component stores and associates the identification information of the doorbell emitter and the corresponding current working mode information of the doorbell receiver, and after obtaining the corresponding pairing result information, may send the pairing result information to the server through the target network, so that: and the server sends the pairing result information to the terminal, and the terminal displays at least part of the pairing result information. It should be noted that, after receiving the pairing result information sent by the doorbell receiver through the target network, the server may cache the pairing result information on the server, and send the pairing result information to the terminal. After the subsequent server receives the updated or modified pairing result information corresponding to the cached pairing result information, the cached pairing result information in the server can be covered by the updated or modified pairing result information so as to save the storage space of the server. Similarly, after receiving the pairing result information, the terminal may also cache the pairing result information on the terminal.
For example, all doorbell transmitters paired with a doorbell receiver may be displayed in the terminal APP interface, along with pairing result information for each doorbell transmitter such as the pairing ringer music, volume size, and job type. The user can modify pairing result information of the doorbell emitter through the terminal APP interface, such as pairing ringing music, volume and work type in the terminal APP interface, and after the user finishes modification and confirmation, the terminal generates first configuration information and sends the first configuration information to the doorbell receiver through the server. A WiFi component of the doorbell receiver receives first configuration information; the first configuration information comprises identification information of a doorbell emitter and modified working mode information; the modified operating mode information is generated by the terminal in response to a modification operation of the displayed doorbell emitter at least partially pairing result information, including modified ringing music, volume size, and/or operating type. For example, the WiFi component may store the identification information of the doorbell emitter and the current operation mode information of the corresponding doorbell receiver when paired by using a preset data structure, where the data structure may be, for example, a certain list, or a part of a certain list. After the WiFi component receives the first configuration information, the pairing result information of the doorbell emitter can be found in a preset data structure by utilizing the identification information of the doorbell emitter in the first configuration information, and the stored current working mode information of the doorbell receiver corresponding to the identification information in the first configuration information is updated into the modified working mode information. Because the user only needs to operate on the terminal APP interface to update pairing result information such as ringing music, volume, work type and the like on the doorbell receiver, the pairing result information is not required to be modified by fussy operation of keys on the doorbell receiver, and the pairing result information is more flexible and convenient.
Further, in some application scenarios, one doorbell receiver needs to pair multiple doorbell transmitters, and the pairing result information of the multiple doorbell transmitters and the doorbell receiver are the same. For example, when the doorbell control method of the present embodiment is applied to a patient's call system or an aged call system in a hospital, a doorbell emitter is installed in each room as a call trigger, and there is a need for pairing a plurality of doorbell emitters with a doorbell receiver. In this embodiment, the doorbell receiver may be displayed in the terminal APP interface, and the current operation mode information of the doorbell receiver, such as the ringing music, the volume level, the operation type, etc., may be set in response to the operation of the user. And after responding to a trigger instruction of a user, such as clicking an add button in the APP interface, the terminal generates second configuration information and sends the second configuration information to the doorbell receiver through the server. The WiFi component of the doorbell receiver receives second configuration information; the second configuration information comprises current working mode information of the doorbell receiver; responding to a pairing instruction such as a trigger instruction received by a terminal and entering a pairing mode; the user can perform control operation on a plurality of doorbell transmitters to be paired to send pairing messages outwards. The radio frequency component of the doorbell receiver receives pairing messages sent by a plurality of doorbell transmitters, and each pairing message at least comprises identification information of the corresponding doorbell transmitter; the radio frequency component sends identification information of the doorbell transmitters to the WiFi component. The WiFi component stores the identification information of the doorbell transmitters and establishes a many-to-one mapping relation between the identification information of the doorbell transmitters and the current working mode information in the second configuration information so that the doorbell transmitters are paired with the doorbell receiver. Compared with the existing pairing mode in which keys of each group of doorbell transmitters and doorbell receivers need to be operated one by one to enter the pairing mode for pairing when the doorbell transmitters and the doorbell receivers are paired, in the embodiment, only the user needs to set current working mode information of the doorbell receivers in an APP interface, the doorbell transmitters and the doorbell receivers can be paired through simple operation, the pairing process is greatly simplified, the doorbell transmitters and the doorbell receivers are paired simply and quickly, and the pairing efficiency is improved.
Further, after pairing of the plurality of doorbell transmitters with the doorbell receiver is completed, in some application scenarios, it may be necessary to modify pairing result information of some of the doorbell transmitters. For example, if pairing result information of doorbell transmitters in a room which needs to be focused in a hospital or a pension office needs to be distinguished from a normal room, pairing result information of partial doorbell transmitters needs to be modified after a plurality of doorbell transmitters and doorbell receivers finish pairing. In this embodiment, the current working mode information of the doorbell receiver may be displayed in the terminal APP interface, and the modification operation of the user on the current working mode information of the doorbell receiver, such as modification of ringing music, volume, working type, etc., may be responded. And after responding to a trigger instruction of a user, such as clicking an add button in the APP interface, the terminal generates third configuration information and sends the third configuration information to the doorbell receiver through the server. A WiFi component of the doorbell receiver receives third configuration information; the third configuration information comprises working mode information modified by the doorbell receiver; the modified working mode information of the doorbell receiver is generated by the terminal in response to the modification operation of the current working mode information of the doorbell receiver. Responding to a pairing instruction such as a trigger instruction received by a terminal to enter a pairing mode; the user can send out the pairing message by performing control operation on at least one doorbell emitter to be modified. The method comprises the steps that a radio frequency component of a doorbell receiver receives a pairing message sent by at least one doorbell emitter, wherein the pairing message at least comprises identification information of the corresponding doorbell emitter; the radio frequency component sends identification information of at least one doorbell emitter to the WiFi component. The WiFi component searches according to the received identification information of the doorbell emitter, and if the identification information of the doorbell emitter is matched with any one of the identification information stored in the doorbell receiver, a second mapping relation between the identification information of the doorbell emitter and the modified working mode information in the third configuration information is established; and deleting the mapping relation between the matched identification information and the working mode information stored in the doorbell receiver so as to update the working mode information of the doorbell receiver corresponding to the doorbell emitter. In the embodiment, the modification operation of the user in the APP interface can be used for modifying the pairing result of part of doorbell transmitters after the doorbell transmitters and the doorbell receivers are paired, and the physical keys of the doorbell receivers and the doorbell transmitters are not required to be operated at the same time for modification, so that the doorbell transmitter pairing method is flexible and convenient.
Further, in this embodiment, the executing module executes, according to the first control instruction, an executable function corresponding to the doorbell receiver, including: and executing at least one executable function of the doorbell receiver according to the working mode information corresponding to the identification information stored in the doorbell receiver. In this embodiment, after operations such as pairing a doorbell receiver with one or more doorbell transmitters or modifying operation mode information of a paired doorbell receiver in a terminal APP interface are completed, a correspondence between the latest operation mode information and identification information of the doorbell transmitter is stored in the doorbell receiver. In an alternative embodiment, when the following doorbell emitter is pressed to generate an action event, corresponding functions are executed according to the latest working mode information of the doorbell receiver, such as ringing music, volume size and working type, so that flexible control of the doorbell receiver is realized.
Optionally, in this embodiment, the WiFi component may further report specific information to the server through the target network, so that the server sends the reported specific information to the terminal, and the terminal displays the specific information in the APP interface to notify the user. For example, the execution module executes a corresponding control action according to the control task, and the WiFi component reports event information corresponding to the control action to the server, so that the server sends the event information to the terminal, and the terminal displays at least part of the event information. Illustratively, according to the first control instruction sent by the doorbell emitter, after the doorbell receiver performs the ringing action, the WiFi component may report ringing action event information to the server, so as to display and notify the user of the ringing action event information, such as the ringing time, the corresponding doorbell emitter, and the like, in the terminal APP interface. In addition, the specific information may also include status information such as power of doorbell emitter, doorbell receiver, alarm, work, do not disturb, etc. In this embodiment, the doorbell receiver may report specific information for displaying and notifying the action event or state information of the doorbell receiver to the user in the terminal APP interface, so that the user can conveniently and timely learn the relevant information of the doorbell emitter and the doorbell receiver.
Optionally, in this embodiment, the WiFi component may use a preset data structure to store identification information of the doorbell emitter and current working mode information of the corresponding doorbell receiver during pairing, so as to obtain pairing result information. Further, the minimum vacancy value in the sequence number list can be judged; the sequence number list is generated by sequentially distributing sequence numbers to a plurality of doorbell transmitters which are successfully paired in sequence by the doorbell receiver; assigning the minimum vacancy value to a doorbell emitter for which the current pairing is successful; and the pairing result information comprises the corresponding relation between the minimum vacancy value and the doorbell emitter which is successfully paired currently. In this embodiment, a sequence number list such as 1,2, and 3 … … may be preset, after the doorbell receiver and the doorbell emitter finish pairing, a sequence number is allocated to each doorbell emitter in sequence, and when the sequence number list has a null value, the minimum null value in the sequence number list is allocated to the doorbell emitter that is successfully paired currently. For example, after the paired doorbell emitter is unpaired with the doorbell receiver, the corresponding sequence number of the paired doorbell emitter in the sequence number list is free to become a blank sequence number, and if the blank missing order number in the current sequence number list includes 2 and 5, the minimum blank value 2 in the sequence number list is allocated to the doorbell emitter that is successfully paired. After pairing is completed and serial numbers are distributed, the serial numbers corresponding to the doorbell emitter can be sent to the terminal through the server. Like this, also can show its corresponding serial number when showing doorbell transmitter in terminal APP interface, the direct doorbell transmitter that corresponds that selects through the serial number when being convenient for follow-up user sets up first control strategy on terminal APP for doorbell receiver is when having a plurality of doorbell transmitters to pair, and the user can not confuse also easier operation. For example, in a first control strategy generated on the terminal, the action event comprises a control action event for a doorbell emitter within a target sequence number range; the target sequence number range is generated by the terminal in response to a selection operation of the sequence number of the doorbell emitter satisfying different sequence number intervals.
Optionally, in this embodiment, the doorbell control method further includes: receiving a first removal instruction; the first removal instruction is used for indicating to unbind the doorbell receiver and the terminal; and deleting the stored distribution network information and re-entering the distribution network mode in response to the first removal instruction. Receiving a second removal instruction, wherein the second removal instruction is used for indicating to unbind the doorbell receiver and the terminal and unbind the doorbell receiver and the doorbell emitter; and deleting the stored distribution network information and the pairing result information in response to the second removal instruction, and re-entering the distribution network mode. In an alternative embodiment, the user may perform a first unbinding triggering operation for the doorbell receiver in the terminal APP interface, the terminal sends a first removal instruction to the doorbell receiver through the server, the WiFi component receives the first removal instruction, only unbinding the network allocation deleting information and reenters the network allocation state, and the doorbell emitter pairing information stored in the doorbell receiver cannot be deleted, so that although the doorbell receiver cannot be controlled through the terminal, the doorbell receiver can be controlled through operating the paired doorbell emitter, and after the doorbell receiver is bound with the terminal again through the network allocation, the doorbell emitter paired with the doorbell receiver is synchronously displayed in the terminal APP interface. In another optional implementation manner, the user may execute a second unbinding triggering operation for the doorbell receiver in the terminal APP interface, the terminal sends a second removing instruction to the doorbell receiver through the server, the WiFi component receives the second removing instruction, not only unbinding the network allocation deleting information and reentering the network allocation state, but also clearing the pairing information of the doorbell emitter stored on the doorbell receiver, and after the next time the doorbell receiver is bound with the terminal again through the network allocation, it will be displayed in the terminal APP interface that the doorbell receiver has no paired doorbell emitter, and the doorbell receiver can be paired again. In the embodiment, various unbinding schemes are provided for the user, so that the user can flexibly select the unbinding scheme of the terminal and the doorbell receiver according to the requirements.
Referring to fig. 6, fig. 6 is a second flowchart of a doorbell control method based on wireless communication according to an embodiment of the present invention. The embodiment discloses a doorbell control method based on wireless communication, which is applied to a server, and comprises the following steps:
Step S601, receiving and storing a first control strategy; the first control strategy defines a mapping relation between an action event and a control task; the action event comprises a control action event of a doorbell emitter and/or a control device connected to the target network; the control tasks comprise doorbell receivers and/or executable functions of controlled devices connected to the target network;
Step S602, a target control action event is received, and a control task corresponding to the target control action event is determined according to the first control strategy;
Step S603, a first control instruction is sent to the doorbell receiver according to the control task; the first control instruction is used for triggering the doorbell receiver to analyze the first control instruction and controlling the corresponding control task to be executed according to the analysis result; the server interacts with the doorbell receiver through the target network, and the doorbell receiver joins in the target network according to the received distribution network instruction. .
The technical terms, features, alternative embodiments and technical effects referred to above may be understood with reference to the above description related to the example of the doorbell control method applied to the doorbell receiver, and will not be further described herein for repeated matters.
In this embodiment, the server may interact with the terminal and the doorbell receiver through the target network, for example, receive and store a first control policy sent by the terminal, where the first control policy may be freely determined by a user at the terminal, and define a triggering relationship between at least one action event and at least one control task, and perform corresponding control according to the first control policy. For example, the server receives a target control action event, and determines a control task corresponding to the target control action event according to the first control strategy. For example, the target control action event may be a control action event of a control device connected to the target network, such as a sound box, for the doorbell receiver, or a control action event of a specified doorbell emitter received through the doorbell receiver for a controlled device connected to the target network. The server may match the received target control action event with the first control policy to obtain a control task corresponding to the target control action event, for example, the control task may be an executable function of the doorbell receiver or an executable function of a controlled device connected to a target network. The server may send a first control instruction to the doorbell receiver to cause the doorbell receiver to perform a corresponding executable function, such as ringing, according to the first control instruction. The server can also send a second control instruction to the controlled equipment connected to the target network through the target network, or the server sends the second control instruction to the terminal, so that the terminal sends the second control instruction to the corresponding controlled equipment, and after the corresponding controlled equipment receives the second control instruction, the corresponding executable function can be executed according to the second control instruction, so that the control task is executed.
In addition, when the first instruction is a network allocation instruction, the doorbell receiver joins in a target network according to the first instruction; further comprises: when the first instruction is a distribution network instruction, the first instruction is used for triggering the doorbell receiver to enter a distribution network mode; the terminal or the server sends the distribution network information of the target network to the doorbell receiver; the distribution network information at least comprises a distribution network secret key; the distribution network secret key is used for triggering the doorbell receiver to join the target network according to the distribution network secret key.
The doorbell receiver can join in a target network according to a distribution network instruction and interact with the server through the target network, when the doorbell receiver receives a first control instruction, a corresponding control task can be controlled to be executed according to an analysis result, for example, the corresponding control task can be determined through a first control strategy in the server, wherein the control task comprises an executable function of a controlled device connected to the target network, and the controlled object in the embodiment comprises the controlled device which is arbitrarily connected to the target network, so that the doorbell receiver is not limited to the doorbell receiver, and can meet more diverse and flexibly-changed control requirements.
Further, the server can interact with a terminal, and the doorbell control method further comprises: the server receives pairing result information sent by the doorbell receiver, wherein the pairing result information characterizes identification information of a doorbell emitter paired with the doorbell receiver and current working mode information of the doorbell receiver; and sending the pairing result information to the terminal so that the terminal displays at least part of the pairing result information.
Further, the server is capable of interacting with a control device, the action event further comprising a control action event of a control device connected to the target network; the control task includes an executable function of the doorbell receiver; the doorbell control method further comprises the following steps: the server receives a first control instruction sent by the control equipment, wherein the first control instruction is generated by the control equipment in response to a control action event; the server sends the first control instruction to the doorbell receiver to cause: the doorbell receiver executes a corresponding executable function of the doorbell receiver according to the first control instruction.
Further, the doorbell control method further comprises: the server receives learning result information; the learning result information characterizes identification information and pairing control information of an intelligent controller paired with the doorbell receiver; and sending the learning result information to the terminal so that the terminal displays at least part of the learning result information. The action event further comprises a control action event of a control device connected to the target network; the control task further comprises an executable function of the intelligent controller; the doorbell control method further comprises the following steps: the server receives a first control instruction sent by the control equipment, wherein the first control instruction is generated by the control equipment in response to a control action event; the server sends the first control instruction to the doorbell receiver to cause: the doorbell receiver sends the first control instruction to the intelligent controller, wherein the first control instruction is used for triggering the intelligent controller to execute the corresponding executable function.
The control object in the doorbell control method of the present embodiment includes any control device, such as a sound box, connected to the target network, and is not limited to a doorbell emitter, and the controlled object includes any controlled device and/or intelligent controller connected to the target network, and is not limited to a doorbell receiver. Therefore, the control objects and the controlled objects in the embodiment are various, and can be conveniently controlled in a more various and flexible manner. Meanwhile, the embodiment can freely define control strategies aiming at doorbell transmitters, doorbell receivers, control equipment, controlled equipment, intelligent controllers and the like, can conveniently realize arbitrary linkage control logic, and meets more diverse and flexibly-changed control demands.
Referring to fig. 7, fig. 7 is a flowchart illustrating a doorbell control method based on wireless communication according to an embodiment of the present invention. The embodiment discloses a doorbell control method based on wireless communication, which is applied to a terminal, wherein the terminal can interact with a server, and the doorbell control method comprises the following steps:
Step S701, a first control strategy is obtained, wherein the first control strategy defines a mapping relation between an action event and a control task; the action event comprises a control action event of a doorbell emitter and/or a control device connected to the target network; the control tasks comprise doorbell receivers and/or executable functions of controlled devices connected to the target network;
step S702, sending the first control policy to the server; such that: the server receives and stores the first control strategy, determines a control task corresponding to a target control action event according to the first control strategy after receiving the target control action event, and sends a first control instruction to the doorbell receiver according to the control task; the first control instruction is used for triggering the doorbell receiver to analyze the first control instruction and controlling the corresponding control task to be executed according to the analysis result; the server interacts with the doorbell receiver through the target network, and the doorbell receiver joins in the target network according to the received distribution network instruction.
The technical terms, features, alternative embodiments and technical effects referred to above may be understood with reference to the above description related to the example of the doorbell control method applied to the doorbell receiver, and will not be further described herein for repeated matters.
In this embodiment, the terminal may obtain a first control policy generated by a user freely defining on the APP interface displayed by the terminal, where the first control policy defines a trigger relationship between at least one action event and at least one control task. The terminal may also obtain a first control policy shared by other devices including, but not limited to, other terminals, servers, doorbell receivers, etc. After the terminal acquires the first control strategy, the first control strategy can be sent to the server, so that the doorbell receiver performs corresponding control according to the first control strategy. In addition, when the doorbell receiver is in a distribution network mode, the terminal can send distribution network information of a target network to the doorbell receiver; the distribution network information at least comprises a distribution network secret key; the distribution network secret key is used for triggering the doorbell receiver to join the target network according to the distribution network secret key.
In this embodiment, after the terminal obtains the first control policy, the first control policy may be sent to the server through the target network, and when a control action event occurs in a doorbell emitter corresponding to the doorbell receiver, the server determines a corresponding control task in the first control policy based on the control action event and controls the control task to be executed, where the control task includes an executable function connected to a controlled device in the target network, and it is seen that the controlled object in this embodiment includes any controlled device connected to the target network, and is not limited to the doorbell receiver, so that more diverse and flexible control requirements can be satisfied.
Further, referring to fig. 8a, a doorbell receiver within a scannable target range of a terminal may be scanned, for example, by manual addition or automatic discovery, to receive and verify a network access request of the doorbell receiver, and after verification, display an identifier, such as a name, a type, etc., of the doorbell receiver; in response to a selection operation input for the identification, for example, the user selects to have the clicked doorbell receiver join the target network by clicking on the identification of the doorbell receiver on the terminal APP interface. An input box may be displayed indicating that the user is to enter information about the distribution network, such as a distribution network key. The terminal receives first input information; the first input information includes a distribution network key, that is, a distribution network key input by a user in the input box, where the distribution network key may be, for example, a name and/or a password of a WiFi network to which the terminal is connected. According to the first input information, the terminal acquires the distribution network information, and then the terminal sends the distribution network information to the doorbell receiver; the distribution network information comprises a distribution network secret key; or broadcasting a message outwards, wherein the broadcasted message comprises a distribution network key; such that: and the doorbell receiver joins in the target network after receiving the distribution network key. After the doorbell receiver joins the target network, the doorbell receiver can be displayed on a terminal APP interface, for example, the doorbell receiver can be displayed on the terminal APP interface to be in an on-line state, and operations such as configuration and control can be performed on the doorbell receiver. In addition, when the doorbell receiver is not connected with the target network, the doorbell receiver can be displayed in an offline state on a terminal APP interface. Illustratively, adding a doorbell receiver in the terminal APP may be, for example: if the doorbell receiver is a WiFi single-mode device, a terminal connected with the same local area network can transmit the ssid and the psk of the target AP to the doorbell receiver in the form of smartconfig or an AP hot spot, and the doorbell receiver can be connected to the AP according to the ssid and the psk so as to join the target network. If the doorbell receiver is a WiFi/BT dual-mode device, the ssid and the psk of the target AP can be transmitted through Bluetooth, so that the doorbell receiver can join the target network. After the doorbell receiver joins the target network, the doorbell receiver can interact with the terminal and the server through the target network.
Further, referring to fig. 8b, the terminal receives pairing result information sent by the server; the pairing result information characterizes identification information of a doorbell emitter paired with the doorbell receiver and current working mode information of the doorbell receiver; and displaying at least part of pairing result information on the terminal APP interface, and generating a first control strategy in response to configuration operation for the displayed at least part of pairing result information. The pairing result information is generated when the doorbell receiver is paired with the doorbell emitter, and comprises identification information of the doorbell emitter and corresponding current working mode information of the doorbell receiver, wherein the current working mode information at least comprises one of the following steps: bell sound information, volume information, work type information of the doorbell receiver. The work type information characterizes the work type of the doorbell receiver when the doorbell receiver subsequently receives control of the paired doorbell emitter, such as only ringing prompt, only light prompt, or simultaneously starting ringing prompt and light prompt, etc. For example, the terminal APP interface may display an identifier of a doorbell emitter paired with the doorbell receiver, such as "doorbell button 1", "doorbell number 1", etc., and may also display current operation mode information of the doorbell receiver paired with "doorbell button 1", such as a bell, a volume, an operation type, such as "light+sound", "sound", "light", etc. For example, in a "light+sound" mode, when the doorbell emitter is pressed, the doorbell receiver is triggered to perform ringing according to the ringing and volume in the current operating mode information, and meanwhile an indicator light on the doorbell receiver also flashes a prompt; in "sound" mode, the doorbell emitter is pressed, and the doorbell receiver only rings; in "light" mode, the doorbell emitter is only flashed when it is pressed. In addition, the user can modify pairing result information of the doorbell emitter through the terminal APP interface, such as modifying ring music, volume size and work type of a doorbell receiver paired with the doorbell button 1 in the terminal APP interface, after the user completes modification and confirmation, the terminal generates first configuration information, wherein the first configuration information comprises identification information of the doorbell emitter and modified work mode information such as modified ring music, volume size and/or work type, and the modification of pairing result information of the doorbell emitter and the doorbell receiver can be completed through the server sending the modified ring music, volume size and/or work type to the doorbell receiver. Because the user only needs to operate on the terminal APP interface to update pairing result information such as ringing music, volume, work type and the like on the doorbell receiver, the pairing result information is not required to be modified by fussy operation of keys on the doorbell receiver, and the pairing result information is more flexible and convenient.
Further, referring to fig. 8c, in this embodiment, the operation mode information of the doorbell receiver, such as the bell sound information, the volume information, the operation type information, etc., of the doorbell receiver may be set in response to the configuration operation of the user on the terminal APP interface. Since in some application scenarios, one doorbell receiver needs to pair multiple doorbell transmitters, referring to fig. 8d, for example, after the working mode information of the doorbell receiver is configured, the terminal may respond to a trigger instruction of the user, such as clicking an add button in a doorbell receiver interface displayed by the terminal APP, to generate second configuration information, where the second configuration information includes the current working mode information of the doorbell receiver; and sending the second configuration information and/or the trigger instruction to the doorbell receiver through the server. The doorbell receiver receives second configuration information and responds to a pairing instruction, such as a trigger instruction generated on a terminal APP interface in response to user operation, to enter a pairing mode; the user can perform control operation on a plurality of doorbell transmitters to be paired, such as a doorbell button 1, a doorbell button 2 and the like, so as to send out a pairing message. The doorbell receiver receives pairing messages sent by the doorbell transmitters, each pairing message at least comprises identification information of the corresponding doorbell transmitter, the identification information of the doorbell transmitters is stored, and a mapping relation between the identification information of the doorbell transmitters and current working mode information in the second configuration information is established so that the doorbell transmitters are paired with the doorbell receiver. And a plurality of doorbell transmitters such as doorbell button 1, doorbell button 2 and the like which finish pairing can be added and finished and are displayed in a doorbell receiver interface of the terminal APP. When the subsequent user presses the doorbell button 1, the doorbell button 2 and the like, the doorbell receiver performs operations such as ringing and flashing with the current working mode information in the paired second configuration information. Compared with the existing pairing mode in which keys of each group of doorbell transmitters and doorbell receivers need to be operated one by one to enter the pairing mode for pairing when the doorbell transmitters and the doorbell receivers are paired, in the embodiment, only the user needs to set current working mode information of the doorbell receivers in an APP interface, the doorbell transmitters and the doorbell receivers can be paired through simple operation, the pairing process is greatly simplified, the doorbell transmitters and the doorbell receivers are paired simply and quickly, and the pairing efficiency is improved.
Further, referring to fig. 8e, in this embodiment, the message push or do not disturb period setting function may also be turned on or off in response to the setting of the designated doorbell emitter or doorbell receiver on the terminal APP interface. For example, in some application scenarios, such as rest periods, where a user needs to control a doorbell emitter to not ring when pressed to avoid affecting the user's rest, the user may add a do not disturb period in the terminal APP interface. Optionally, the user may set a first time period, i.e. a do-not-disturb time period, for a specified doorbell emitter in the terminal APP interface, and the user may also set a second time period, i.e. a do-not-disturb time period, for a doorbell receiver in the terminal APP interface. After the user configures the first time period and the second time period, the terminal sends the first time period and the second time period to the doorbell receiver through the server, the doorbell receiver can correspondingly store the first time period and the appointed doorbell emitter, and the second time period and all doorbell emitters paired with the doorbell receiver are correspondingly stored. In an alternative embodiment, when the doorbell receiver receives a first control command, the doorbell receiver analyzes that if the first control command is sent by a specified doorbell emitter, determines the receiving time of the first control command, and determines whether the receiving time is in a first time period; if the receiving time is in the first time period, entering a do-not-disturb state; the first time period is generated by the terminal in response to a configuration operation of a specified doorbell emitter. In another alternative embodiment, the doorbell receiver determines the time of receipt of the first control command when the first control command is received; judging whether the receiving time is in a second time period or not; if the receiving time is in the second time period, entering a do-not-disturb state; the second time period is generated by the terminal in response to a configuration operation of the doorbell receiver. And in the no-disturbance state, the doorbell receiver does not respond to the first control instruction and/or the doorbell receiver executes corresponding control actions according to a preset working mode, wherein the preset working mode can comprise only lighting prompt and no ringing. In addition, the doorbell receiver periodically receives the server synchronized time information according to a preset time to determine whether the reception time of the first control instruction is in the first time period or the second time period using the synchronized time information. In this embodiment, the doorbell receiver may enter a do-not-disturb state according to the receiving time of the first control instruction, where the doorbell receiver does not ring, thereby meeting the personalized requirements of the user and improving the user experience.
In addition, when the do-not-disturb time period is set, the terminal also responds to the configuration operation of the appointed doorbell emitter or the doorbell receiver to acquire a configured time starting point and a first time ending point; if the first time end point is earlier than the time start point in the current date, generating a second time end point; the second time endpoint is a time point corresponding to the first time endpoint in a next date relative to the current date; generating a time period according to the time starting point and the second time ending point; the time period is transmitted to the doorbell receiver such that the doorbell receiver is in a do-not-disturb state for the time period. That is, when the user sets the no-disturbance time period to the specified doorbell emitter or the doorbell receiver on the terminal APP interface, if the time endpoint selected by the user is earlier than the time starting point in the current date, for example, the no-disturbance time period selected by the user is from 10 am to 9 am on the current day, the time endpoint is earlier than the time starting point, in which case some embodiments the terminal displays that the time endpoint cannot be earlier than the time starting point to prompt the user to reselect the time endpoint, or the user needs to set two time periods on the terminal, for example, from 10 am to 24 am on the current day, and from 0 am to 9 am on the next day. In this embodiment, the terminal determines that the first time endpoint selected by the user in the current date, for example, when 9 am is earlier than the time start point, for example, when 10 am is generated; the second time endpoint is a time point corresponding to the first time endpoint in a next day relative to the current date, for example, the first time endpoint and the second time endpoint may be the same time point separated by one date, for example, the first time endpoint is 9 am on the same day, the generated second time endpoint is 9 am on the next day, and a time period is generated according to the time point and the second time endpoint, for example, from 10 am to 9 am on the next day; the time period is transmitted to the doorbell receiver such that the doorbell receiver is in a do-not-disturb state for the time period. In the embodiment, the personalized setting requirement of the user for configuring the non-disturbing time period of the appointed doorbell emitter or the appointed doorbell receiver can be met, repeated setting of the user is not needed, and the method is flexible and convenient.
Further, in this embodiment, the message push may be turned on or off on the terminal APP interface in response to a setting of the specified doorbell emitter or doorbell receiver. In this embodiment, after responding to the push operation of the user's start message, the terminal may receive the specific information reported, and display the specific information in the APP interface to notify the user. For example, the doorbell receiver may report specific information to the server through the target network, so that the server sends the reported specific information to the terminal. And after the doorbell receiver executes corresponding control actions according to the control tasks, reporting event information corresponding to the control actions to the server, so that the server sends the event information to the terminal, and the terminal displays at least part of the event information. Illustratively, according to the first control instruction sent by the doorbell emitter, after the doorbell receiver performs the ringing action, the ringing action event information may be reported to the server, so as to display and notify the user of the ringing action event information, such as the ringing time, the corresponding doorbell emitter, and the like, in the terminal APP interface. In addition, the specific information may also include status information such as power of doorbell emitter, doorbell receiver, alarm, work, do not disturb, etc. In this embodiment, the terminal may receive specific information reported by the doorbell receiver to display and notify the action event or state information of the doorbell receiver to the user in the terminal APP interface, so that the user can conveniently and timely learn related information of the doorbell emitter and the doorbell receiver.
Further, in this embodiment, the terminal further receives learning result information sent by the server; the learning result information characterizes identification information and pairing control information of an intelligent controller paired with the doorbell receiver; displaying at least part of learning result information; a first control strategy is generated in response to a configuration operation for at least a portion of the displayed learning result information.
In this embodiment, the learning result information is obtained by storing, when the doorbell receiver and the intelligent controller are paired, identification information and pairing control information of the intelligent controller, and the doorbell receiver sends the learning result information to the server, so that: and the server sends the learning result information to the terminal, and the terminal displays at least part of the learning result information. The terminal APP interface can display related information of the intelligent controller, such as the name, control information and the like of the intelligent controller. The user can set a first control strategy between the intelligent controller and other devices in the target network on the terminal APP interface according to the displayed related information of the intelligent controller and own control requirements, so that the control between the intelligent controller and the other devices in the target network is realized. For example, the action events in the first control policy further include control action events of control devices in the target network; the control task further comprises an executable function of the intelligent controller; the doorbell receiver receives a first control instruction sent by the server, and the first control instruction is generated by the control equipment in response to a control action event and is sent to the server; the doorbell receiver sends the first control instruction to the intelligent controller to cause: the intelligent controller executes corresponding executable functions of the intelligent controller such as turning over, opening, closing and the like according to the first control instruction.
Besides executing the self function in response to the control instruction, the doorbell receiver can also send related information of the intelligent controller paired with the doorbell receiver to a terminal through a target network for display, so that control equipment in the target network can control the intelligent controller. The doorbell receiver can also have a gateway function, and the intelligent controller can perform associated control with control equipment in the target network through the doorbell receiver, for example, remote control, voice control, configuration scene, namely a first control strategy and the like are realized. In this embodiment, the gateway function of the doorbell receiver is utilized, so that the control object includes any control device, such as a sound box, connected to the target network, and is not limited to the doorbell emitter, and the controlled object includes any controlled device and/or intelligent controller connected to the target network, and is not limited to the doorbell receiver.
In summary, the control objects and the controlled objects in the embodiment are various, so that the control can be realized more variously and flexibly. Meanwhile, the embodiment can freely define control strategies aiming at doorbell transmitters, doorbell receivers, control equipment, controlled equipment, intelligent controllers and the like, can conveniently realize arbitrary linkage control logic, and meets more diverse and flexibly-changed control demands.
Further, referring to fig. 9a and 9b, a doorbell emitter is provided in the present embodiment, where the doorbell emitter includes:
A housing 91 having an accommodating chamber therein;
At least one button 92 disposed at an opening side of the accommodating cavity to form at least one accommodating space with the housing 91, and adapted to generate an action in response to an external manipulation;
a self-generating module 93 disposed in the accommodation space and configured to be directly or indirectly driven to generate electric power in response to the motion;
The circuit board 94 is disposed in the accommodating space, electrically connected to the self-generating module 93, and configured to receive the electrical energy, and further power up to enter a working state. The circuit board 94 is provided with a second communication module, and the second communication module is electrically connected to the self-generating module and is configured to receive the electric energy generated by the self-generating module and power up;
The second communication module is used for receiving the electric energy to power up, generating and sending a first control instruction; the first control instruction is used for triggering the appointed doorbell receiver to analyze the received first control instruction, and controlling the corresponding control task to be executed according to the analysis result; the control task comprises executable functions of the doorbell receiver and/or a controlled device connected to the target network; the doorbell receiver joins in the target network according to the received distribution network instruction.
The key 92 of the doorbell emitter in this embodiment responds to an external manipulation to generate an action; the self-generating module 93 is driven directly or indirectly by the action to convert mechanical energy into electrical energy at least once; the second communication module receives the electric energy and is electrified; after the second communication module is electrified, the second communication module generates and sends a first control instruction to a specified doorbell receiver; the doorbell receiver determines a corresponding control task based on the first control instruction and controls the control task to be executed, wherein the control task comprises an executable function of a controlled device connected to the target network, and it can be seen that the controlled object in the embodiment comprises any controlled device connected to the target network, and the doorbell receiver is not limited to the doorbell receiver, and can meet more diverse and flexibly-changed control requirements.
Further, the housing 91 includes a bottom case 911; the bottom case 911 has a cavity with an upward opening, and the key 92 is movably and detachably disposed on the opening side of the bottom case 911, so that the accommodating space is formed between the bottom case 911 and the key 92. In an example, the key 92 is movably connected with the bottom case 911 through a buckle, and the key 92 can move up and down along the direction of the buckle on the bottom case 911. The self-generating module 93 includes a driving unit 931 and a generating unit 932, wherein the generating unit 932 is drivably connected to the driving unit 931, and when the driving unit 931 is pressed in response to the action, the driving unit 931 drives the generating unit 932, and the generating unit 932 converts mechanical energy into electrical energy. The power generation unit 932 includes an elastic paddle (not shown), and the elastic paddle can be driven to generate electric energy; the self-generating module 93 further includes a reset unit 933 disposed in the accommodating space, the reset unit 933 is configured to be directly or indirectly driven by the motion, the reset unit 933 has a reset force for resetting itself, and the key 92 and the driving unit 931 can be reset together with the reset unit 933. Illustratively, the reset unit 933 is disposed between the resilient paddle and the bottom case 911; an operation part 921 is disposed on a side of the key 92 facing the cavity, and the operation part 921 can be displaced up and down along a direction of a buckle on the bottom shell 911 in response to an external manipulation force, so that the key 92 moves from a first position to a second position under the action of external manipulation; the first position is a position where the key 92 is not pressed, or is an original position of the key 92. The position of the operation part 921 is adapted to the position of the driving unit 931, and when the key 92 is in the second position state, the operation part 921 can trigger the power generation unit 932 to generate electric energy by driving the driving unit 931 to press the elastic dial; the circuit board 94 is powered up to enter a working state according to the electric energy generated by the power generation unit 932. The second communication module provided on the circuit board 94 has a communication circuit for processing and transmitting signals, and the communication circuit generates a message according to a preset communication protocol according to the action, so as to transmit the message. The reset unit 933 can generate a reset force to the driving unit 931 and the elastic pulling piece when the operating force for pressing the key 92 is removed, so as to drive the key 92 to reset from the second position to the first position.
Further, referring to fig. 10, a doorbell control method based on wireless communication is provided in this embodiment, which includes:
step S1001, the key generates an action in response to an external operation;
Step S1002, the self-generating module is directly or indirectly driven by the motion to convert mechanical energy into electrical energy at least once;
Step S1003, the second communication module receives the electric energy and powers up;
Step S1004, after the second communication module is powered on, generating and sending a first control instruction by the second communication module; the first control instruction is used for triggering the appointed doorbell receiver to analyze the received first control instruction, and controlling the corresponding control task to be executed according to the analysis result; the control task comprises executable functions of the doorbell receiver and/or a controlled device connected to the target network; the doorbell receiver joins in the target network according to the received distribution network instruction.
Further, the controlled device in the target network comprises the doorbell receiver, and the doorbell receiver is added to the target network in response to a distribution network instruction; the distribution network instruction is generated by a terminal in the target network in response to distribution network manipulation.
Further, the doorbell control method further comprises: entering a pairing mode in response to a pairing manipulation for the key; when the doorbell receiver is in the pairing mode, the second communication module sends a pairing message to the doorbell receiver; the pairing message at least comprises identification information of the doorbell emitter.
The technical terms, features, alternative embodiments and technical effects referred to above can be understood with reference to the related description of the above embodiments, and will not be described here again for repeated matters.
In this embodiment, the doorbell receiver may join in the target network according to the configuration network instruction, when a control action event occurs in the doorbell emitter corresponding to the doorbell receiver, the doorbell receiver determines a corresponding control task in the first control policy based on the control action event, and controls the control task to be executed, where the control task includes an executable function of a controlled device connected to the target network, and it is seen that the controlled object in this embodiment includes a controlled device arbitrarily connected to the target network, and is not limited to the doorbell receiver, so as to meet more diverse and flexibly-changed control requirements.
Referring to fig. 11, there is provided an electronic device 11 including:
A processor 111; and
A memory 112 for storing executable instructions of the processor;
wherein the processor 111 is configured to perform the above-mentioned method via execution of the executable instructions.
The processor 111 is capable of communicating with the memory 112 via the bus 113.
The embodiments of the present invention also provide a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the methods referred to above.
Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (16)

1. A receiver, the receiver comprising: a housing and a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and establishes a communication relationship with the first communication component in a self-defined data communication mode;
the first communication component is used for receiving a first control instruction sent by a designated transmitter and sending a custom data signal to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction;
The second communication component is used for receiving the custom data signal, analyzing the data signal based on a first logic level sequence signal in the custom data signal, and determining a control task according to the data signal;
The receiver further comprises an execution module, wherein the execution module is arranged in the shell and is electrically connected with the first communication module;
The first communication module receives a first instruction; if the first instruction is a network allocation instruction, a target network is added according to the first instruction; if the first instruction is a first control instruction, analyzing the first control instruction;
the execution module controls the corresponding control task to be executed according to the analysis result; the control tasks include executable functions of the receiver and/or controlled devices connected in the target network.
2. The receiver of claim 1, wherein the first communication component is configured to establish communication for a first channel; the second communication component is used for establishing communication of a second channel or a third channel; the first channel, the second channel and the third channel respectively adopt different communication protocols; the analysis result comprises a communication channel corresponding to the first control instruction.
3. The receiver of claim 1, wherein the second communication component receives the custom data signal, parses the data signal based on a first sequence of logic levels in the custom data signal, comprising:
Periodically triggering the second communication component to execute the level signal detection task of the data transmission port through a set timer;
Reading a data signal of the data transmission port when a second logic level sequence signal composed of a plurality of continuous level signals is detected; the second logic level sequence signal is identical to at least a portion of the first logic level sequence signal.
4. A receiver according to claim 3, wherein the timing period T 1 of the timer is less than the duration T 2 of the first logic level sequence signal.
5. The receiver of claim 4, wherein T 1 is less than or equal to T 2/5.
6. A receiver according to claim 3, wherein each logic level in the first sequence of logic level signals averages to the same logic level; each logic level in the second sequence of logic level signals averages to the same logic level.
7. A receiver according to claim 3, characterized in that the task priority corresponding to the data signal of the data transmission port is set to the highest priority after detection of a second logic level sequence signal consisting of a plurality of consecutive level signals.
8. The receiver of any of claims 1-7, wherein the first communication component comprises a radio frequency component and the second communication component comprises a WiFi component, the WiFi component being coupled to the radio frequency component through an IO port.
9. The receiver according to claim 1, wherein the execution module controls the corresponding control task to be executed according to the analysis result, comprising:
And the execution module outputs a specified optical signal or a specified audio signal outwards according to the control task.
10. A receiver processing method based on wireless communication, applied to a receiver, characterized in that the receiver comprises: a housing, a first communication module; the first communication module is arranged in the shell; the first communication module comprises a first communication component and a second communication component; the second communication component is connected with the first communication component through a data transmission port, and a communication relationship is established with the first communication component in a custom data communication mode;
the receiver processing method comprises the following steps:
the first communication component receives a first control instruction sent by a specified doorbell emitter and sends a custom data signal to the second communication component according to the first control instruction; the custom data signal comprises a first logic level sequence signal and a data signal corresponding to the first control instruction;
The second communication component receives the self-defined data signal, analyzes the self-defined data signal based on a first logic level sequence signal in the self-defined data signal to obtain the data signal, and controls the corresponding control task to be executed according to the analyzed data signal;
The receiver further comprises an execution module, wherein the execution module is arranged in the shell and is electrically connected with the first communication module;
the receiver processing method further includes:
The first communication module receives a first instruction; if the first instruction is a network allocation instruction, a target network is added according to the first instruction; if the first instruction is a first control instruction, analyzing the first control instruction;
the execution module controls the corresponding control task to be executed according to the analysis result; the control tasks include executable functions of the receiver and/or controlled devices connected in the target network.
11. The receiver processing method of claim 10, wherein the second communication component receives the custom data signal, parses the data signal based on a first logic level sequence signal in the custom data signal, comprising:
Periodically triggering the second communication component to execute the level signal detection task of the data transmission port through a set timer;
Reading a data signal of the data transmission port when a second logic level sequence signal composed of a plurality of continuous level signals is detected; the second logic level sequence signal is identical to at least a portion of the first logic level sequence signal.
12. The receiver processing method according to claim 11, wherein the timing period T 1 of the timer is less than the duration T 2 of the first logic level sequence signal.
13. The receiver processing method of claim 12, wherein T 1 is less than or equal to T 2/5.
14. The receiver processing method of claim 11, wherein each logic level in the first sequence of logic level signals averages to the same logic level; each logic level in the second sequence of logic level signals averages to the same logic level.
15. The receiver processing method according to claim 11, wherein after detecting a second logic level sequence signal composed of a plurality of continuous level signals, a task priority corresponding to a data signal for reading the data transmission port is set to a highest priority.
16. The receiver processing method according to any one of claims 10 to 15, wherein the first communication component comprises a radio frequency component, the second communication component comprises a WiFi component, and the WiFi component is connected to the radio frequency component through an IO port.
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